Sanitary sight indicator

ABSTRACT

A sanitary sight indicator for viewing the contents of a production process is provided. The sanitary sight indicator includes a body, an optical unit, and a sanitary connection between the body and the optical unit. The body includes a process-interfacing portion which is adapted to interface with the production process and an optical-interfacing portion which interfaces with the optical unit. The optical unit includes a viewing portion for viewing the contents of the production process and a body-interfacing portion which interfaces with the optical-interfacing portion of the body. The sanitary connection includes a sanitary gasket having a substantially flat annular portion, and first and second annular projections which are approximately semi-circular in cross-sectional shape and which extend outwardly from opposite sides of the annular portion. The sanitary connection further includes a sanitary gasket-groove in each of the optical unit-interfacing portion and the body-interfacing portion. Each of the sanitary-gasket grooves includes a flat surface supporting the flat annular portion of the sanitary gasket and a channel supporting one of the annular projections of the sanitary gasket. Such a sight indicator may be in the form of a &#34;sight flow indicator&#34; for installation in a process line or a &#34;sight window&#34; for installation on a process tank.

This is a divisional of copending application Ser. No. 07/764,837 filedon Sep. 24, 1991, which issued as U.S. Pat. No. 5,243,929 on Sep. 14,1993.

FILED OF THE INVENTION

This invention relates generally as indicated to a sanitary sightindicator and more particularly to a sight indicator in which a sanitaryconnection is made between the body and the optical unit of theindicator.

BACKGROUND AND SUMMARY OF THE INVENTION

A typical production process will include the flow of a fluid-likesubstance through process lines and/or the storing of a substance withinprocess tanks. Sight indicators are commonly installed in such processlines and process tanks for the observation of the contents of theproduction process. This observation may be accomplished by visualinspections performed by personnel, measurement data gathered byinstrumentation, or a combination of both.

A sight indicator will usually be in the form of either a "sight flowindicator" installed in a process line to observe the relevantcharacteristics of the contents flowing therethrough or a "sight window"installed on a process tank to observe the pertinent parameters of thecontents stored therein. These characteristics/parameters may includecolor, clarity, degree of mixing, liquefaction, formation of voids orbubbles, turbidity, light refraction, and effectiveness of cleaningsolutions. With particular reference to a sight window, it is commonlyalso used to determine significant height dimensions, such as theoverall level of the contents stored in the process tank or the locationof interfaces between the components of multi-component mixture (e.g.the interface between oil and water in an oil/water mixture or theinterface between solids and liquids in a multi-phase mixture).

A sight indicator will usually include a body, an optical unit, and aconnection between the body and the optical unit. The body typicallyincludes a process-interfacing portion which is adapted to interfacewith the production process and an optical unit-interfacing portionwhich interfaces with the optical unit, via the connection between thesecomponents. The optical unit typically includes a viewing portion forviewing the contents of the production process and a body-interfacingportion which interfaces with the optical unit-interfacing portion ofthe body.

In many industries, such as those concerned with the production of food,pharmaceutical and/or cosmetic products, sanitation requirements imposecertain restrictions on the design of sight indicators. These sanitationrequirements include the necessity that leakage into the productionprocess be kept at an extreme minimum to eliminate even the possibilityof contamination. Such leakage has commonly been discovered in theconnection between the body and the optical unit of sight indicators.

Additionally, such sight indicators must usually be designed so that theopportunity for the contents of the production process to become lodgedin the components and/or the crevices between the components of thesight indicator is minimized to industry-accepted levels. This designcriteria is necessary because lodged particles typically result in theformation of bacteria which could also result in contamination of thecontents of the production process. In the past, the connection betweenthe body and the optical unit has been viewed as a prime candidate forsuch content lodging.

Still further, industries involved in the production of food,pharmaceutical and/or cosmetic products tend to shy away from sightindicators in which there is a tendency towards failure of thecomponents. This tendency is due to the fact that the failure of certaincomponents, such as a glass viewing portion, may result in fragmentsbeing introduced into the production process thereby contaminating itscontents. Thus the optical unit, as well as the connection between theoptical unit and the body, must be designed to minimize the possibilityof such failure. Consequently, industries typically demand that sightindicators be tested at pressure which is at least 1.5 times greaterthan the maximum working pressure of the production process. Forexample, in a production process having a maximum working pressure of150 psig (which is typical of most relevant industries), the testpressure of a sight indicator would have to be at least 225 psig.

The spirit of these restrictions, especially those concerned withleakage and lodging, are reflected in industry requirements thatcomponents incorporated into a sanitary production process, such asvalves, diaphragms etc., interface with the production process in suchmanner that the interface qualifies as a "sanitary fitting" or "sanitaryconnection." "Sanitary connection" in this context corresponds to aconnection which satisfies generally accepted and approved industrystandards, such as those formulated by the International Association ofMilk, Food, and Environmental Sanitarians, the United States Departmentof Agriculture, the Poultry & Egg Institute of America, the Dairy andFood Industries Supply Association, the Dairy Industry Committee, theUnited States Public Health Service, and/or other organizationsaddressing similar concerns.

A sanitary connection in a production process is commonly accomplishedby either integral connections or connections comprising sanitaryclamping, butt-welds or beveled seat fittings. In sanitary clampingconnections, sanitary gaskets and corresponding sanitary-gasket groovesare used to form a sanitary connection between the components of theproduction process. Sanitary gaskets include a substantially flatannular portion and annular projections which are approximatelysemi-circular in cross-sectional shape and which extend outwardly fromopposite surfaces of the flat annular portion.

In contrast to sanitary gaskets, conventional "non-sanitary" gasketsusually consist either of an annular portion which is entirely flat (a"flat" gasket) or an annular portion which is circular in cross section(an "O-ring" gasket). These types of gaskets are usually not acceptablefor applications requiring a sanitary connection because they cannotsatisfy the necessary sanitary standards. More particularly, when a flatgasket is sandwiched between components of a production process, it hasa tendency to undesirably "breath in and out" thereby increasing thechances of leakage, content lodging, and/or contamination. Regarding theO-ring gasket, it, almost by definition, creates a crevice between thesandwiching components in which the contents of the production processmay become lodged.

In a typical sanitary connection, a sanitary gasket is sandwichedbetween two connecting portions each of which contain a sanitary-gasketgroove. Such sanitary-gasket grooves are especially designed toaccommodate a sanitary gasket. More particularly, a sanitary-gasketgroove will include a flat surface for supporting the flat annularportion of the stationary gasket and a channel for supporting theprojecting portion of the stationary gasket. Thus when a sanitary gasketis properly sandwiched between two sanitary-gasket grooves, the gasketis firmly held in position (i.e. it will not "breathe in and out") andno crevices are created between the sandwiching components.

According to the present invention, a sanitary sight indicator isprovided which includes a sanitary connection between the components ofthe indicator, namely the body and the optical unit. In this manner,leakage into the production process is kept at an extreme minimum andthe contents of the production process will not become lodged in theconnection between the body and the optical unit. Additionally, theviewing portion of the optical unit is designed to greatly reduce anytendencies towards failure. In fact, in tests performed on certainprototypes, the indicators demonstrated pressure ratings substantiallyexceeding 225 psig and thus they could be incorporated into productionprocess having a 150 psig maximum working pressure.

More particularly, the present invention provides a sanitary sightindicator for viewing the contents of a production process. The sanitarysight indicator includes a body, an optical unit, and a sanitaryconnection between the body and the optical unit. The body includes aprocess-interfacing portion which is adapted to interface with theproduction process and an optical-interfacing portion which interfaceswith the optical unit. The optical unit includes a viewing portion forviewing the contents of the production process and a body-interfacingportion which interfaces with the optical-interfacing portion of thebody. The sanitary connection includes a sanitary gasket having asubstantially flat annular portion, and first and second annularprojections which are approximately semi-circular in cross-sectionalshape and which extend outwardly from opposite sides of the annularportion. The sanitary connection further includes a sanitarygasket-groove in each of the optical unit-interfacing portion and thebody-interfacing portion. The sanitary-gasket grooves each include aflat surface supporting the flat annular portion of the sanitary gasketand a channel supporting one of its annular projections.

According to one embodiment of the present invention, the body comprisesa pair of head members which are essentially identical and which eachinclude a process-interfacing portion and an optical unit-interfacingportion. The optical unit is made of a rigid transparent material suchas borosilicate glass, acrylic or polycarbonate and it includes acylindrical viewing portion having two body-interfacing portions onopposite ends thereof. The body-interfacing portions may besubstantially co-planar extensions of the cylindrical viewing portion,or alternatively these portions may comprise flanged end portions whichare integrally molded with the viewing portion. Such a sanitary sightindicator could be incorporated into a production process line as sightflow indicator.

According to other embodiments of the present invention, a windowassembly which is disclosed in U.S. Pat. No. 4,961,628 to Herberts ismodified and incorporated into a sight indicator as the optical unit.More particularly, the Herberts window assembly is modified so that asanitary connection may be created between the window assembly, or theoptical unit, and the body of the sight indicator. The owner of theHerberts patent is currently obligated to deliver manufactured windowassemblies for distribution in the United States, Canada, and Mexicoexclusively to the assignee of the present application.

According to one embodiment of the present invention incorporating theHerberts window assembly, the sanitary sight indicator comprises a crossmember including two aligned through-flow sections and two alignedtransverse sections. The through-flow sections contain theprocess-interfacing portions and the transverse sections contain theoptical unit-interfacing portions. The optical unit comprises astainless steel frame having a low coefficient of thermal expansion anda viewing portion which is arranged within the frame and which is madeof a glass having a coefficient of thermal expansion not greater thanthat of the frame. The frame includes the body-interfacing portion ofthe optical unit. Such a sanitary sight indicator could be incorporatedinto a production process line as sight flow indicator.

According to another embodiment of the present invention incorporating aHerberts window assembly, the process-interfacing portion of the body isadapted to interface with a tank. In this embodiment, the bodypreferably comprises an integral part of the tank whereby theprocess-interfacing portion is actually a transition between theoptical-interfacing portion and the remainder of the tank. Such asanitary sight indicator could be incorporated into a production processas a sight window.

According to still another embodiment of the present invention, theprocess-interfacing portion of the body is adapted to interface with atank and the body comprises an integral part of the tank. As such, theprocess-interfacing portion of the body is actually a transition betweenthe optical unit-interfacing portion and the remainder of the tank. Theoptical unit of this embodiment is similar in shape to the Herbertswindow assembly, however, both the viewing portion and thebody-interfacing portion of the optical unit are made of a transparentmaterial, such as acrylic or polycarbonate. Such a sanitary sightindicator could incorporated into a production process as a sightwindow.

These and other features of the invention are fully described andparticularly pointed out in the claims. The following description andannexed drawings set forth in detail certain illustrative embodiments,however, these embodiments are indicative of but a few of the variousways in which the principles of the invention may be employed.

BRIEF DESCRIPTION OF THE DRAWINGS

In the annexed drawings:

FIG. 1 is side view of a sanitary sight indicator according to oneembodiment of the present invention, the left half of the indicatorbeing shown in plan and the right half of the indicator being shown insection;

FIG. 2 is an exploded perspective view of certain components of thesight indicator of FIG. 1 these components including a body and anoptical unit;

FIG. 2A is an enlarged cross sectional view of a sanitary gasket;

FIG. 2B is an enlarged cross-sectional view of a sanitary- gasketgroove;

FIG. 3 is a perspective view of an alternate optical unit which may beused in the sanitary sight indicator of FIG. 1;

FIG. 4 is a side view of a sanitary sight indicator according to anotherembodiment of the present invention, the left half of the indicatorbeing shown in plan and the right half of the indicator being shown insection;

FIG. 5 is a front view of a component of the indicator of FIG. 3, namelyan optical unit;

FIG. 6 is a side cross-sectional view of the optical unit of FIG. 5;

FIG. 7 is a front view of a sight indicator according to anotherembodiment of the present invention, the sight indicator being showninstalled on a process tank;

FIG. 8 is an enlarged side view of the sight indicator of FIG. 7; and

FIG. 9 is a side cross-sectional view of an optical unit similar to thatshown in FIG. 6 except that it is completely made of a transparentmaterial.

DETAILED DESCRIPTION

Referring now to the drawings in detail and initially to FIGS. 1 and 2,a sanitary sight indicator according to the present invention isindicated generally at 10. As is explained in more detail below, thesanitary sight indicator 10 is designed so that it may be incorporatedinto a process line (not shown) to view the contents flowingtherethrough and thus could be specifically referred to as a sight flowindicator. The design of the sanitary sight indicator 10 is believed tobe such that leakage into the production process is kept at an extrememinimum and the contents of the production process will not becomelodged in the sight indicator. Additionally, the indicator 10 isdesigned to greatly reduce any tendencies towards failure which wouldresult in contamination of the contents of the production process.

The sanitary sight indicator 10 comprises a body which is indicatedgenerally at 14, an optical unit which is indicated generally at 16, andsanitary connections 18 between the body 14 and the optical unit 16."Sanitary connection" in this context corresponds to a connection whichsatisfies generally accepted and approved industry standards, such asthose formulated by relevant organizations. Because sanitary connections18 are employed between the body 14 and the optical unit 16, thesanitary sight indicator 10 may used in production processes having highsanitary standards, such as those used in the production of food,pharmaceutical or cosmetic products.

The body 14 comprises a pair of head members 20 which are made of anapproved sanitary material such as 304 stainless steel or 316 stainlesssteel. The head members 20 are essentially identical and the geometry ofthese members is best explained by referring to FIGS. 1 and 2. The headmembers 20 are symmetrically coupled, via the sanitary connections 18,to opposite ends of the optical unit 16. Consequently, the head members20 may be viewed as having optical unit-interfacing portions 30 whichinterface with the optical unit 16.

The head members 20 additionally each include a process-interfacingportion 32 which is adapted to interface with the process line. In atypical application, this interface would be a suitable sanitaryconnection, such as one comprising butt-welds or bevel seat fittings.Alternatively, and as illustrated, the process-interfacing portions 32may include a sanitary-gasket groove 40 designed to cooperate with asanitary gasket (not shown) and a corresponding sanitary-gasket groovein the process line. As such the sanitary-gasket groove 40 would possessessentially the same features as the sanitary gasket-grooves discussedbelow.

The optical unit 16 includes a cylindrical viewing portion 50 forviewing the contents of the production process and two end portions 56which are co-planar extensions of the viewing portion 50 and which arepositioned at opposite ends thereof. The end portions 56 interface withthe optical unit-interfacing portions 30 of the body 14 and thus may bereferred to as the body-interfacing portions of the optical unit 16. Theoptical unit 16 is preferably made of a suitable rigid transparentmaterial, such as borosilicate glass, acrylic, or polycarbonate, andmore preferably is made of acrylic.

Alternatively, the sanitary sight indicator 10 may include the opticalunit 16' shown in FIG. 3. The optical unit 16' includes a cylindricalviewing portion 50' and two end, or body-interfacing, portions 56'. Incontrast to the optical unit 16, the body-interfacing portions 56' arenot substantially co-planar extensions of the viewing portion 50', butrather are flanged outwardly therefrom. The end portions 56 arepreferably molded integral with the viewing portion 50 of the unit 16,rather than cut therefrom. Such integral molding is believed to increasethe overall strength of the optical unit 16 and thereby greatly reduceany tendencies towards failure which would result in contamination ofthe contents of the production process. The optical unit 16' ispreferably made of a suitable rigid transparent material, such asborosilicate glass, acrylic, or polycarbonate, and more preferably ismade of borosilicate glass.

The sanitary connections 18 each includes a sanitary gasket 60, anenlarged cross-sectional view of which is illustrated in FIG. 2A. Asshown, the sanitary gasket 60 includes a substantially flat annularportion 62 and annular projections 64 and 66 which are approximatelysemi-circular in cross-sectional shape and which extend outwardly fromopposite surfaces of the annular portion 62. The sanitary gaskets 60 aremade of an approved sanitary material such as Buna N, EPDM, Viton, PTFE,Silicone, or Polyethylene.

Each of the sanitary connections 18 further includes a set ofcorresponding sanitary gasket-grooves 70 and 72 in the body 14 and theoptical unit 16, respectively. More particularly, the sanitarygasket-grooves 70 are provided in the optical unit-interfacing portions30 of the head members 20 and the sanitary gasket-grooves 72 areprovided in the body-interfacing portions 56 of the optical unit 16. Ifthe optical unit 16' is used, sanitary gasket-grooves 72' are providedin the body-interfacing portions 56'.

The features of the sanitary gasket-grooves 70 and 72 are best explainedby referring to FIG. 2B which is an enlarged cross-sectional view of thesanitary gasket-groove 70. As shown, the sanitary gasket-groove 70includes a flat annular portion 74 for supporting the flat annularportion 62 of the stationary gasket and a semi-circular in cross sectionchannel 76 for supporting the projecting portion 64/66 of the stationarygasket 60. It should be noted that although only sanitary gasket-groove70 is shown in detail, the sanitary gasket-grooves 72/72' will containanalogous features.

When the sanitary sight indicator 10 is assembled, the sanitary gaskets60 are sandwiched between the respective optical unit-interfacingportions 30 of the head members 20 and the body-interfacing portions56/56' of the optical unit 16/16'. More particularly, the flat annularportion 62 of the sanitary gasket 60 will be positioned between the flatannular portions 74 of the sanitary-gasket grooves 70 and 72, and theannular projections 64 and 66 of the sanitary gasket 60 will bepositioned within the respective channel 76. In this manner, thesanitary connections 18 are established between the body 14 and theoptical unit 16/16'.

The body 14 and the optical unit 16/16' are coupled together by acoupling device 80. "Coupling device" in this context corresponds to anydevice, regardless of whether it is structurally equivalent to thedisclosed device, which serves to couple these components together. Inthe illustrated embodiment, the coupling device 80 comprises a set ofthreaded studs 82 which are inserted through aligned openings 84 in thehead members 20. Nuts 86 are provided to appropriately compress the headmembers 20 towards each other to create a mechanical connection betweenthe body 14 and the optical unit 16/16'.

Applicants have developed prototypes of the sanitary flow indicator 10which incorporate the illustrated geometry and preferred features. In afirst prototype, the body 14 was constructed of 304 stainless steel andthe optical unit 16 was molded from borosilicate glass and includedflanged body-interfacing portions 56. This prototype was tested usingconventional methods and equipment, and the testing specificallyinvolved the following sequential steps:

1. pressurizing the indicator to a pressure of 300 psig, holding thispressure for thirty seconds, and then reducing the pressure to 0 psig;

2. pressurizing the indicator to a pressure of 450 psig, holding thispressure for and then reducing the pressure to 0 psig; and

3. pressurizing the indicator by 50 psig increments until it fails.

When tested in this manner, the optical unit 16, or more particularlythe viewing portion 50, failed at approximately 575 psig. Thus thefailure point of the indicator 10 was substantially greater than a testpressure of 225 psig, and thus could conservatively be used in aproduction process having a maximum working pressure of 150 psig. Whenthese testing methods were repeated on an essentially identical unit,the optical unit 16 failed at 600 psig in a similar manner.

In a second prototype, the body 14 was also constructed of 304 stainlesssteel, however, the optical unit 16' was made of acrylic and includedco-planar body-interfacing portions 56'. The testing of this prototypeconsisted of the following sequential steps:

1. pressurizing the indicator to a pressure of 300 psig, holding thispressure for thirty seconds, and then reducing the pressure to 0 psig;

2. pressurizing the indicator to a pressure of 450 psig, holding thispressure for one minute, and then reducing the pressure to 0 psig;

3. pressurizing the indicator to a pressure of 600 psig, holding thispressure for one minute, and then reducing the pressure to 0 psig; and

4. pressurizing the indicator by 50 psig increments until it fails.

When tested in this manner, the stationary gasket 60 slipped out of theindicator at approximately 900 psig, and thus this indicator alsodemonstrated a failure point which was substantially greater than a testpressure of 225 psig. Consequently, this indicator could conservativelybe used in a production process having a maximum working pressure of 150psig. When these testing methods were repeated on an essentiallyidentical indicator, the stationary gasket 60 again slipped out atapproximately 900 psig.

Turning now to FIGS. 4-6, another sanitary sight indicator according tothe present invention is indicated generally at 110. The sanitary sightindicator 110 is also designed so that it may be incorporated into aprocess line (not shown) to view the contents flowing therethrough andconsequently could be specifically referred to as a sight flowindicator.

The sanitary sight indicator 110 comprises a body which is indicatedgenerally at 114, and at least one, and in the illustrated embodimenttwo, optical units which are indicated generally at 116. Sanitaryconnections 118 are made between the body 114 and the optical units 116.In the illustrated embodiment, the body 114 comprises a cross member 120which is made of an approved sanitary material such as 304 stainlesssteel or 316 stainless steel. However, other constructions of the body114 are possible with, and contemplated by, the present invention. Forexample, the cross member 120 could be replaced with a T-member wherebyonly one optical unit 116 would be included in the indicator.

The cross member 120 is comprised of two aligned through-flow sections122 and two aligned transverse sections 124. Each of the transversesections 124 is coupled, via one of the sanitary connections 118, to oneof the optical units 116. Consequently, each of the transverse sections124 may be viewed as having an optical unit-interfacing portion 130.

The through-flow sections 122 each include a process-interfacing portion132 which is adapted to interface with the process line. In a typicalapplication, this interface will be a suitable sanitary connection, suchas one comprising sanitary clamping, butt-welds or bevel seat fittings.When using sanitary clamping as illustrated, the process-interfacingportions 132 may each contain a stationary gasket-groove 140 whichpossess the same features, and serves the same function, as the sanitarygasket-grooves 76, 70 and 72 discussed above.

Each of the optical units 116 preferably comprises a window assembly 142which is of the type disclosed in U.S. Pat. No. 4,961,628 to Herberts,the entire disclosure of which is hereby incorporated by reference. Sucha window assembly is believed to be extremely resistant even under highpressure and thermal influences. As such, the window assembly 142 servesto greatly reduce any tendencies towards failure which would result incontamination of the contents of the production process.

Each window assembly 142 includes a cylindrical metal frame 144 in whichis arranged a transparent insert, or viewing portion, 150 for viewingthe contents of the production process. The frame 144 is made of astainless steel having a low coefficient of thermal expansion and theviewing portion 150 is made of a glass, preferably borosilicate, havinga similar or still smaller coefficient of expansion. The frame 144includes a body-interfacing portion 156 which interfaces with therespective optical unit-interfacing portion 130 of the body 114.

Alternatively, indicator 110 could incorporate the optical unit 116'shown in FIG. 9. The optical unit 116' comprises a window assembly 142'which is similar in shape to the window assembly 142, however, it iscompletely made of a transparent plastic material such as acrylic orpolycarbonate. The viewing portion 150' of the optical unit 116'comprises the central region of the window assembly 142 while thebody-interfacing portion 156' comprises the circumferential bordertherearound.

The sanitary connections 118 each include a sanitary gasket 160 which isessentially identical to the sanitary gaskets discussed above.Consequently, the sanitary gaskets 160 each include a substantially flatannular portion and annular projections which are approximatelysemi-circular in cross-sectional shape and which extend outwardly fromopposite surfaces of the flat annular portion. These portions of thesanitary gasket 160 are shown, but not specifically numbered, in thedrawings. Each of the sanitary connections 118 further includes a set ofcorresponding sanitary-gasket grooves 170 and 172 in the body 114 andthe optical units 116, respectively. More particularly, the sanitarygasket-grooves 170 are provided in the optical unit-interfacing portions130 of the transverse sections 124 and the sanitary gasket-grooves 172are provided in the body-interfacing portions 156 of the frame 144. Thesanitary gasket-grooves 170 and 172 are preferably essentially identicalto the sanitary gasket-grooves 70 and 72 discussed above.

When the sanitary sight indicator 110 is assembled, the sanitary gaskets160 are sandwiched between the respective optical unit-interfacingportions 130 of the transverse sections 124 and the body-interfacingportions 156 of the optical unit 116. More particularly, the flatannular portion of the sanitary gasket 160 will be positioned betweenthe flat annular portions of the sanitary-gasket grooves 170 and 172,and the annular projections of the sanitary gasket 160 will bepositioned within the channels of the sanitary-gasket grooves. In thismanner, the sanitary connections 118 are established between the body114 and the optical unit 116.

The body 114 and the optical unit 116 are coupled together by a couplingdevice 180. "Coupling device" in this context corresponds to any device,regardless of whether it is structurally equivalent to the discloseddevice, which serves to couple these components together. In theillustrated embodiment, the coupling device 180 comprises athree-sectioned clamp 182 for each optical unit 116, such as the widelyused TRI-CLAMP®.

Referring now additionally to FIGS. 7 and 8, another sanitary sightindicator according to the present invention is indicated generally 210.The sanitary sight indicator 210 is designed to be installed on aprocess tank 211 and thus may be specifically referred to as a sightwindow.

The sanitary sight indicator 210 comprises a body which is indicatedgenerally at 214 and an optical unit which is indicated generally at216. The body 214 includes an optical unit-interfacing portion 230 whichinterfaces with the optical unit 216 and a process-interfacing portion232 which is adapted to interface with the production process. In theillustrated embodiment, the body 214 comprises an integral part of theprocess tank 211 and thus the process-interfacing portion 232 comprisesa transition between the optical unit-interfacing portion 230 and theremainder of the tank 211.

Each of the optical units 216 preferably comprises a window assembly 242which is of the type disclosed in U.S. Pat. No. 4,961,628 to Herberts,the entire disclosure of which has already been incorporated byreference. Consequently, the window assembly 242 is essentiallyidentical to the window assembly 142 discussed above, and includes acylindrical metal frame 244 in which is arranged a transparent insert,or viewing portion, 250, for viewing the contents of the process tank211. The frame 244 includes a body-interfacing portion 256 whichinterfaces with the optical unit-interfacing portion 230 of the body214. Alternatively, the indicator 210 could incorporate the optical unit116' shown in FIG. 9.

The sanitary connection 218 includes a sanitary gasket 260 which isessentially identical to the sanitary gaskets discussed above. Thesanitary connection 218 further includes a set of correspondingsanitary-gasket grooves 270 and 272 in the body 214 and the optical unit216, respectively. More particularly, the sanitary gasket-groove 270 isprovided in the optical unit-interfacing portion 230 of the body 214 andthe sanitary gasket-groove 272 is provided in the body-interfacingportion 256 of the frame 244. The sanitary gasket-grooves 270 and 272are preferably essentially identical to the sanitary gasket-groovesdiscussed above.

When the sanitary sign indicator 210 is assembled, the sanitary gasket260 is sandwiched between the respective optical unit-interfacingportion 230 of the body 214 and the body-interfacing portions 256 of theoptical unit 216. More particularly, the flat annular portion of thesanitary gasket 260 will be positioned between the flat annular portionsof the sanitary-gasket grooves 270 and 272, and the annular projectionsof the sanitary gasket 260 will be positioned within the channels of thesanitary-gasket grooves. In this manner, the sanitary connection 218 isestablished between the body 214 and the optical unit 216. The body 214and the optical unit 216 are coupled together by a coupling device 280,which may be essentially the same as the coupling device 180 discussedabove.

A prototype was developed by applicants which incorporated theillustrated geometry and the preferred features of the sanitary signindicator 210. The testing of this prototype consisted of the followingsequential steps:

1. pressurizing the indicator to a pressure of 150psig, holding thispressure for thirty seconds, and then reducing the pressure to 0 psig;

2. pressuring the indicator to a pressure of 300 psig, holding thispressure for thirty seconds, and then reducing the pressure to 0 psig;

3. pressurizing the indicator to a pressure of 450 psig, holding thispressure for thirty seconds, then reducing the pressure to 0 psig;

4. pressuring the indicator to a pressure of 600 psig, holding thispressure for one minute, and then reducing the pressure to 0 psig;

5. pressurizing the indicator to a pressure of 900 psig, holding thispressure for one minute, and then reducing the pressure to 0 psig;

6. pressuring the indicator to a pressure of 1200 psig, holding thispressure for one minute, and then reducing the pressure to 0 psig; and

7. pressurizing the indicator until it fails.

When tested in this manner, the stationary gasket 260 slipped out of theindicator at approximately 1480 psig. Consequently, the pressure ratingof the sight indicator 210 greatly exceeds the typical industry-requiredtest pressure rating of 225 psig for production processes having amaximum working pressure of 150 psig.

One may now appreciate that the present invention provides a sanitarysight indicator which includes a sanitary connection between the bodyand the optical unit. In this manner, leakage into the productionprocess is kept at an extreme minimum and the opportunity for thecontents of the production process to become lodged in the sightindicator is minimized to industry accepted levels. Additionally, theviewing portion of the optical unit is designed to greatly reduce anytendencies towards failure.

Although the invention has been shown and described with respect tocertain preferred embodiments, it is obvious that equivalent alterationsand modifications will occur to others skilled in the art upon thereading and understanding of this specification. The present inventionincludes all such equivalent alterations and modifications and islimited only by the scope of the following claims.

What is claimed is:
 1. A sanitary sight indicator for viewing thecontents of a production process, said indicator comprising a body, anoptical unit, and a sanitary connection between said body and saidoptical unit;said body comprising a member including two alignedthrough-flow sections and at least one transverse section, each of saidthrough flow sections including a process-interfacing portion which isadapted to interface with the production process and said transversesection including an optical unit-interfacing portion which interfaceswith said optical unit; said optical unit including a viewing portionfor viewing the contents of the production process and abody-interfacing portion which interfaces with said opticalunit-interfacing portion of said body; said sanitary connectionincluding a sanitary gasket including a substantially flat annularportion, and first and second annular projections which are essentiallysemi-circular in cross-sectional shape and which extend outwardly fromopposite sides of said annular portion; said sanitary connection furtherincluding a sanitary gasket-groove in each of said opticalunit-interfacing portion and said body-interfacing portion, each of saidsanitary-gasket grooves including a flat surface supporting said flatannular portion of said sanitary gasket and a channel supporting one ofsaid first and second annular projections of said sanitarygasket;wherein said process-interfacing portions of said body areadapted to interface with a process line.
 2. A sanitary sight indicatoras set forth in claim 1 wherein said member includes tow alignedtransverse sections.
 3. A sanitary sight indicator as set forth in claim1 wherein said viewing portion of said optical unit is cylindrical inshape.
 4. A sanitary sight indicator as set forth in claim 3 whereinsaid optical unit is made of a rigid transparent material.
 5. A sanitarysight flow indicator as set forth in claim 4 wherein said optical unitis made of a material selected from a group consisting of borosilicateglass, acrylic, and polycarbonate.
 6. A sanitary sight indicator as setforth in claim 1 wherein said body is made of stainless steel.
 7. Asanitary sight indicator as set forth in claim 1 wherein said opticalunit comprises a window assembly including a frame which is made of astainless steel of low coefficient of thermal expansion and atransparent insert which is arranged within said frame and which is madeof a glass having a coefficient of thermal expansion not greater thanthat of said frame.
 8. A sanitary sight indicator as set forth in claim1 wherein said optical unit comprises a window assembly made of atransparent plastic material, said window assembly including a centralregion which forms said viewing portion and a circumferential bordertherearound which includes said body-interfacing portion.
 9. A sanitarysight indicator as set forth in claim 1, wherein said sanitary gasket ismade of an approved sanitary gasket material.
 10. A sanitary sightindicator as set forth in claim 1, wherein said sanitary gasket is madeof a material selected from the group consisting of Buna N, EPDM, Viton,PTFE, Silicone, and Polyethylene.
 11. A sanitary sight indicator forviewing the contents of a production process, said indicator comprisinga body, an optical unit, and a sanitary connection between said body andsaid optical unit;said body including a process-interfacing portionwhich is adapted to interface with the production process and atransversely extending optical unit-interfacing portion which interfaceswith said optical unit; said optical unit including a viewing portionfor viewing the contents of the production process and abody-interfacing portion which interfaces with said opticalunit-interfacing portion of said body; said sanitary connectionincluding a sanitary gasket including a substantially flat annularportion, and first and second annular projections which are essentiallysemi-circular in cross-sectional shape and which extend outwardly fromopposite sides of said annular portion; said sanitary connection furtherincluding a sanitary gasket-groove in each of said opticalunit-interfacing portion and said body-interfacing portion, each of saidsanitary-gasket grooves including a flat surface supporting said flatannular portion of said sanitary gasket and a channel supporting one ofsaid first and second annular projections of said sanitarygasket;wherein said process-interfacing portion of said body is adaptedto interface with a process tank.
 12. A sanitary sight indicator as setforth in claim 11 wherein said viewing portion of said optical unit iscylindrical in shape.
 13. A sanitary sight indicator as set forth inclaim 12 wherein said optical unit is made of a rigid transparentmaterial.
 14. A sanitary sight flow indicator as set forth in claim 13wherein said optical unit is made of a material selected from a groupconsisting of borosilicate glass, acrylic, and polycarbonate.
 15. Asanitary sight indicator as set forth in claim 11 wherein said body ismade of stainless steel.
 16. A sanitary sight indicator as set forth inclaim 11 wherein said optical unit comprises a window assembly includinga frame which is made of a stainless steel of low coefficient of thermalexpansion and a transparent insert which is arranged within said frameand which is made of a glass having a coefficient of thermal expansionnot greater than that of said frame.
 17. A sanitary sight indicator asset forth in claim 11 wherein said optical unit comprises a windowassembly made of a transparent plastic material, said window assemblyincluding a central region which forms said viewing portion and acircumferential border therearound which includes said body-interfacingportion.
 18. A sanitary sight indicator as set forth in claim 11 whereinsaid sanitary gasket is made of an approved sanitary gasket material.19. A sanitary sight indicator as set forth in claim 11 wherein saidsanitary gasket is made of a material selected from the group consistingof Buna N, EPDM, Viton, PTFE, Silicone, and Polyethylene.
 20. A sanitarysight indicator as set forth in claim 11 wherein saidprocess-interfacing portion of said body comprises an integral portionof the process tank whereby said process-interfacing portion comprises atransition between said optical unit-interfacing portion and theremainder of said tank.